By G. Compagno
The interplay among atoms and electromagnetic fields is a space of crucial significance to the research of basic recommendations of quantum mechanics. The authors offer an advent to the idea touching on this interplay via describing the several kinds of the interplay and working with how those interactions bring about the formation of dressed states, within the presence of vacuum fluctuations in addition to within the presence of exterior fields. in addition they conceal the function of dressed atoms in quantum dimension conception and the actual interpretation of vacuum radiative results. Treating a key box at the boundary among quantum optics and quantum electrodynamics, the publication may be of serious use to graduate scholars, in addition to to demonstrated experimentalists and theorists, in both of those parts.
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A. Alù and N. Engheta 46 Fig. 11 Similar to Figs. 9–10, but for 90° plane wave incidence. ) 6 Conclusions To conclude, we have reported here an overview of our recent theoretical and numerical results for plasmonic cloaking, reporting our recent findings and numerical simulations on this exciting electromagnetic problem. The interested reader may refer to the list of references for additional information and insights. References 1. 2. 3. 4. : Achieving transparency with plasmonic and metamaterial coatings.
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Atom-Field Interactions and Dressed Atoms by G. Compagno